BlueGreycalmElegant

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Compare Revisions

• This comparison shows the changes necessary to convert path

  → /cvi/instr/DRS/drs4.c @ 202

  → /cvi/instr/DRS/drs4.c @ 203

  ↔ Reverse comparison

• Compare Path:	Rev

  With Path:	Rev

Regard whitespace Rev 202 → Rev 203

/cvi/instr/DRS/drs4.c
1,3 → 1,4
#include <formatio.h>
#include <utility.h>
#include <ansi_c.h>
#include <cvirte.h>
5,8 → 6,14
#include "drs4.h"
#include "drsread.h"
#define MIKRO
#ifdef MIKRO
#include "MIKRO.h"
#endif
static int daq_on;
static int ph, plothandle[4];
static int ph, p2,plothandle[4]= {0,0,0,0};
static int tfID;
static int controlID;
15,18 → 22,32
static CmtThreadPoolHandle poolHandle = 0;
int main (int argc, char *argv[]) {
short port;
if (InitCVIRTE (0, argv, 0) == 0)
return -1; /* out of memory */
if ((ph = LoadPanel (0, "drs4.uir", PANEL)) < 0)
return -1;
if ((p2 = LoadPanel (0, "drs4.uir", SCAN)) < 0)
return -1;
SetStdioPort (CVI_STDIO_WINDOW);
SetSleepPolicy(VAL_SLEEP_MORE);
CmtNewThreadPool (MAX_THREADS, &poolHandle);
DisplayPanel (ph);
DisplayPanel (p2);
#ifdef MIKRO
GetCtrlVal(p2, SCAN_PORT, &port);
if (MIKRO_Open (port)) MessagePopup ("Error", "Mikro Port Not found !\n Change in the GUI") ;
MIKRO_Init(1,0);
MIKRO_Init(2,0);
#endif
RunUserInterface ();
DiscardPanel (ph);
DiscardPanel (p2);
CmtDiscardThreadPool (poolHandle);
MIKRO_Close ();
return 0;
}
64,7 → 85,7
int neve;
char filename[0xff];
char smask[0xff];
int imask[4];
unsigned long mask;
int frequency;
double trgdelay;
74,36 → 95,59
int trgpolarity;
int verbose;
double range;
int pfreq;
int enabledoutput;
int neveold = 0;
double rate;
int *args = (int *) functionData;
GetCtrlVal(ph, PANEL_FILENAME, filename );
GetCtrlVal(ph, PANEL_CH0, &imask[0] );
GetCtrlVal(ph, PANEL_CH1, &imask[1] );
GetCtrlVal(ph, PANEL_CH2, &imask[2] );
GetCtrlVal(ph, PANEL_CH3, &imask[3] );
mask = 0;
for (int i=0; i<4; i++) {
if (imask[i]) mask |= (1<<i);
}
GetCtrlVal(ph, PANEL_FILENAME, filename );
GetCtrlVal(ph, PANEL_MASK, smask );
mask = strtoul (smask,NULL,0);
GetCtrlVal(ph,PANEL_NEVE, &neve);
GetCtrlVal(ph,PANEL_DEBUG, &verbose);
GetCtrlVal(ph,PANEL_PFREQ, &pfreq);
GetCtrlVal(ph,PANEL_ENABLEDOUTPUT, &enabledoutput);
GetCtrlVal(ph,PANEL_FREQUENCY, &frequency);
GetCtrlVal(ph,PANEL_TRGDELAY, &trgdelay);
GetCtrlVal(ph,PANEL_TRGCHANNEL, &trgchannel);
GetCtrlVal(ph,PANEL_TRGTYPE, &trgtype);
GetCtrlVal(ph,PANEL_TRGLEVEL, &trglevel);
GetCtrlVal(ph,PANEL_TRGPOLARITY, &trgpolarity);
GetCtrlVal(ph,PANEL_RANGE, &range);
GetCtrlVal(ph,PANEL_DEBUG, &verbose);
printf("mask=0x%x\n",mask);
//printf("mask=0x%x\n",mask);
DRSSetMask( (unsigned char)( mask & 0xF ) );
DRSSetFrequency( frequency );
DRSSetTriggerDelay(trgdelay );
DRSSetTriggerChannel(trgchannel );
DRSSetTriggerType( trgtype );
DRSSetTriggerLevel(trglevel);
DRSSetTriggerPolarity(trgpolarity);
DRSSetTriggerLevel(trglevel);
DRSSetRange ( range );
DRSSetTriggerType( trgtype );
DRSSetTriggerChannel(trgchannel );
FILE *fp=fopen(filename,"wb");
FILE *fp= NULL;
if (enabledoutput) {
if (args[0]) fp = fopen(filename,"wb");
else fp = fopen(filename,"ab");
}
static unsigned char *buffer;
int buffer_size = 0;
131,13 → 175,16
if (!daq_on) break;
time(&t);
if (t!=told ) {
printf("%d events in %2.2f min (%d s) %s",i+1, (double)(t-tstart)/60.,(t-tstart), ctime(&t));
rate = (i-neveold);
printf("%d events in %2.2f min (%d s) Rate %f Hz %s ",i+1, (double)(t-tstart)/60.,(t-tstart), rate , ctime(&t));
GetCtrlVal(ph,PANEL_PFREQ, &pfreq);
neveold = i;
}
told=t;
// Save data
if (nb>0 && fp) fwrite(buffer, 1,nb ,fp);
// Plot Data
for (int k=0;k<4;k++){
if (i % pfreq == 0) for (int k=0; k<4; k++) {
if (! (mask & ( 0x1<<k )) ) continue;
float *t=DRSGetTime(k);
float *x=DRSGetWave(k);
167,6 → 214,74
}
int CVICALLBACK scan(void *functionData) {
int dx[2];
int nx[2];
int x0[2];
int ix[2];
int size;
char buffer[12]="POSR";
int *n = (int *) &buffer[4];
char filename[0xFF];
int enabledoutput;
FILE *fp;
GetCtrlVal(ph, PANEL_FILENAME, filename );
GetCtrlVal(ph,PANEL_ENABLEDOUTPUT, &enabledoutput);
if ( GetFileInfo(filename,&size) ) {
MessagePopup ("Warning", "File exist. Remove it first or choose another file");
return 0;
}
GetCtrlVal(p2, SCAN_STEPX, &dx[0]);
GetCtrlVal(p2, SCAN_STEPY, &dx[1]);
GetCtrlVal(p2, SCAN_NSTEPSX, &nx[0]);
GetCtrlVal(p2, SCAN_NSTEPSY, &nx[1]);
GetCtrlVal(p2, SCAN_STARTX, &x0[0]);
GetCtrlVal(p2, SCAN_STARTY, &x0[1]);
for (int i=0; i<nx[0]; i++) {
ix[0]= x0[0]+i*dx[0];
#ifdef MIKRO
MIKRO_MoveTo(1,ix[0]);
#endif
SetCtrlVal (p2, SCAN_IX, i);
for (int j=0; j<nx[1]; j++) {
SetCtrlVal (p2, SCAN_IY, j);
ix[1]= x0[1]+j*dx[1];
#ifdef MIKRO
MIKRO_MoveTo(2,ix[1]);
MIKRO_GetPosition(1,&n[0]);
SetCtrlVal (p2, SCAN_XP, n[0]);
MIKRO_GetPosition(2,&n[1]);
SetCtrlVal (p2, SCAN_YP, n[1]);
if (enabledoutput) {
fp = fopen(filename,"ab");
if (fp) {
fwrite(buffer, 1,12 ,fp);
fclose(fp);
}
}
#endif
daq(functionData);
if (!daq_on) break;
}
if (!daq_on) break;
}
return 0;
}
int CVICALLBACK StartCB (int panel, int control, int event,
void *callbackData, int eventData1, int eventData2) {
ThreadFunctionPtr mythread = NULL;
174,12 → 289,17
case EVENT_COMMIT:
controlID=0;
if (panel == ph && control == PANEL_START) {
mythread = daq;
controlID= control;
}
if (panel == p2 && control == SCAN_SCAN) mythread = scan;
if (mythread!=NULL) {
printf("New Thread panel=%d button=%d\n", panel, control);
// SetDimming(1);
controlID= control;
daq_on=1;
CmtScheduleThreadPoolFunctionAdv (poolHandle, mythread, &controlID,
DEFAULT_THREAD_PRIORITY,
212,3 → 332,114
}
return 0;
}
int CVICALLBACK MoveStageCB (int panel, int control, int event,
void *callbackData, int eventData1, int eventData2) {
int axis=0, step=1000, direction=1, n;
switch (event) {
case EVENT_COMMIT:
if (panel == p2) {
switch (control) {
case SCAN_BR :
axis = 1;
direction = 1;
GetCtrlVal(p2, SCAN_STEPX, &step);
break;
case SCAN_BL :
axis = 1;
direction = -1;
GetCtrlVal(p2, SCAN_STEPX, &step);
break;
case SCAN_BU :
axis = 2;
direction = 1;
GetCtrlVal(p2, SCAN_STEPY, &step);
break;
case SCAN_BD :
axis = 2;
direction = -1;
GetCtrlVal(p2, SCAN_STEPY, &step);
break;
}
#ifdef MIKRO
MIKRO_MoveFor(axis, direction*step );
MIKRO_GetPosition(axis,&n);
if (axis == 1) SetCtrlVal (p2, SCAN_XP, n);
if (axis == 2) SetCtrlVal (p2, SCAN_YP, n);
#endif // MIKRO
}
break;
}
return 0;
}
int CVICALLBACK GoXCB (int panel, int control, int event,
void *callbackData, int eventData1, int eventData2) {
int n2;
switch (event) {
case EVENT_COMMIT:
GetCtrlVal (p2, SCAN_XG, &n2);
#ifdef MIKRO
MIKRO_MoveTo(1,n2);
MIKRO_GetPosition(1,&n2);
#endif
SetCtrlVal (p2, SCAN_XP, n2);
break;
}
return 0;
}
int CVICALLBACK GoYCB (int panel, int control, int event,
void *callbackData, int eventData1, int eventData2) {
int n2;
switch (event) {
case EVENT_COMMIT:
GetCtrlVal (p2, SCAN_YG, &n2);
#ifdef MIKRO
MIKRO_MoveTo(2,n2);
MIKRO_GetPosition(2,&n2);
#endif
SetCtrlVal (p2, SCAN_YP, n2);
break;
}
return 0;
}
int CVICALLBACK GetCurrentPositionCB (int panel, int control, int event,
void *callbackData, int eventData1, int eventData2) {
int n[2];
switch (event) {
case EVENT_COMMIT:
#ifdef MIKRO
MIKRO_GetPosition(1,&n[0]);
SetCtrlVal (p2, SCAN_XP, n[0]);
MIKRO_GetPosition(2,&n[1]);
SetCtrlVal (p2, SCAN_YP, n[1]);
#endif
break;
}
return 0;
}
int CVICALLBACK HomeCB (int panel, int control, int event,
void *callbackData, int eventData1, int eventData2) {
switch (event) {
case EVENT_COMMIT:
#ifdef MIKRO
MIKRO_ReferenceMove(1);
MIKRO_ReferenceMove(2);
GetCurrentPositionCB(panel, control, event, NULL, 0, 0);
#endif
break;
}
return 0;
}